Litcius/Paper detail

Beyond TreeSHAP: Efficient Computation of Any-Order Shapley Interactions for Tree Ensembles

Maximilian Muschalik, Fabian Fumagalli, Barbara Hammer, Eyke Hüllermeier

2024Proceedings of the AAAI Conference on Artificial Intelligence12 citationsDOIOpen Access PDF

Abstract

While shallow decision trees may be interpretable, larger ensemble models like gradient-boosted trees, which often set the state of the art in machine learning problems involving tabular data, still remain black box models. As a remedy, the Shapley value (SV) is a well-known concept in explainable artificial intelligence (XAI) research for quantifying additive feature attributions of predictions. The model-specific TreeSHAP methodology solves the exponential complexity for retrieving exact SVs from tree-based models. Expanding beyond individual feature attribution, Shapley interactions reveal the impact of intricate feature interactions of any order. In this work, we present TreeSHAP-IQ, an efficient method to compute any-order additive Shapley interactions for predictions of tree-based models. TreeSHAP-IQ is supported by a mathematical framework that exploits polynomial arithmetic to compute the interaction scores in a single recursive traversal of the tree, akin to Linear TreeSHAP. We apply TreeSHAP-IQ on state-of-the-art tree ensembles and explore interactions on well-established benchmark datasets.

Topics & Concepts

ComputationOrder (exchange)Tree (set theory)Shapley valueComputer scienceMathematicsTheoretical computer scienceMathematical economicsCombinatoricsAlgorithmGame theoryEconomicsFinanceData Mining Algorithms and ApplicationsPeer-to-Peer Network TechnologiesAdvanced Database Systems and Queries